Enhanced TDS
Knowde-enriched technical product data sheet
Identification & Functionality
- Chemical Family
- Polymer Name
- Plastics & Elastomers Functions
- Technologies
- Product Families
Features & Benefits
- Materials Features
- Material Features
- Impact resistance
- Wear resistance
- Flexibility
- Electrical performance
- Dimensional stability
- Chemical resistance
Applications & Uses
- Markets
- Applications
- Plastics & Elastomers End Uses
- Plastics & Elastomers Processing Methods
- Applications
Extruded moldings
- Film for electrical insulation
- Wire and cable
- Tube
Injection moldings
- Gear member
- Bearing retainer
- Casing
- Case body
Gaskets Cutting and processing
- Plate / Sheet
- Round / Cylindrical bar
Properties
- Typical Properties
Value Units Test Method / Conditions Dielectric Constant (at 23°C, 2.45GHz) 3 - ASTM D2520 Flexural Modulus (at 23°C) 3 GPa ASTM D790 Flexural Strength (at 23 °C, 5% Strain) 105 MPa ASTM D790 Heat Deflection Temperature 147 °C JIS F07191 Impact Strength (at -40 °C) 95 J/m ASTM D256 Impact Strength (at 23 °C) NB J/m ASTM D256 MIT Flex Life 1800 Cycles JIS P8115 Tensile Elongation (at 200°C) 455 % ASTM D638 Tensile Elongation (at 23°C) 99 % ASTM D638 - Chemical Resistance
Modified PEEK shows similar or better chemical resistance to PEEK
Fluid
Immersion Condition
Tensile Strength Retention (%)
Elongation Retention (%)
PEEK
KB-1120
KB-1130
PEEK
KB-1120
KB-1130
IRM-903
150 °C
3 Weeks
88
96
104
32
76
54
Diesel No. 2
150 °C
3 Weeks
92
101
106
21
33
94
Steam
260 °C
3 Weeks
97
106
112
36
54
108
Technical Details & Test Data
- Processing
Fluon+ mPEEK can be processed via conventional PEEK molding techniques
- Extrusion molding
- Injection molding
- Pressure molding
- Wear Property Data
Loss of material during abrasion testing significantly reduced with the addition of fluoropolymer modification
Critical Surface Energy
- Flexural Property Data
Flex resistance via MIT increased with fluoropolymer modification
Fluxural Modulus & Sterngth
MIT Flex
- Electrical Properties
Tensile Properties
- Coefficient of Thermal Expansion
Dimensional stability across the operatig temperature improved with fluoropolymer modification
Safety & Health
- Safe Handling Information
A summary of the hazards, as defined by OSHA Hazard Communication Standard, 29 CFR 1910.1200 for this product are: Physical hazards: None
Health hazards: None
FOR ADDITIONAL INFORMATION AND HANDLING INSTRUCTIONS READ AGC CHEMICALS AMERICAS, INC. MATERIAL SAFETY DATA SHEET.
Storage & Handling
- Storage and Handling
Heating Fluon® products in excess of 750°F (399°C) can produce toxic fumes. It is, therefore, necessary to provide local exhaust ventilation in areas where Fluon® products are exposed to high temperatures. Avoid breathing fumes or contaminating smoking tobacco with fumes, powder, or dust.
Thermal decomposition of this product will generate hydrogen fluoride, which is corrosive. Corrosion resistance materials are required for prolonged contact with molten resin. Fluon+ mPLASTICS products should be stored in their original containers. This will be either in re-sealable plastic pails, or in drums with the liner bags and chime rings securely re-fastened. Products should be stored indoors at nominal conditions of 23 C and 50% relative humidity. Products should be dried prior to use.